/*---------------------------------------------------------------------------*\
  =========                 |
  \\      /  F ield         | OpenFOAM: The Open Source CFD Toolbox
   \\    /   O peration     | Website:  https://openfoam.org
    \\  /    A nd           | Copyright (C) 2011-2018 OpenFOAM Foundation
     \\/     M anipulation  |
-------------------------------------------------------------------------------
License
    This file is part of OpenFOAM.

    OpenFOAM is free software: you can redistribute it and/or modify it
    under the terms of the GNU General Public License as published by
    the Free Software Foundation, either version 3 of the License, or
    (at your option) any later version.

    OpenFOAM is distributed in the hope that it will be useful, but WITHOUT
    ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
    FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
    for more details.

    You should have received a copy of the GNU General Public License
    along with OpenFOAM.  If not, see <http://www.gnu.org/licenses/>.

Class
    Foam::dictionary

Description
    A list of keyword definitions, which are a keyword followed by any number
    of values (e.g. words and numbers). The keywords can represent patterns
    which are matched using Posix regular expressions. The general order for
    searching is as follows:
    - exact match
    - pattern match (in reverse order)
    - optional recursion into the enclosing (parent) dictionaries

    The dictionary class is the base class for IOdictionary.
    It also serves as a bootstrap dictionary for the objectRegistry data
    dictionaries since, unlike the IOdictionary class, it does not use an
    objectRegistry itself to work.

    To add - a merge() member function with a non-const dictionary parameter?
    This would avoid unnecessary cloning in the add(entry*, bool) method.

SourceFiles
    dictionary.C
    dictionaryIO.C

\*---------------------------------------------------------------------------*/

#ifndef dictionary_H
#define dictionary_H

#include "entry.H"
#include "IDLList.H"
#include "DLList.H"
#include "fileName.H"
#include "ITstream.H"
#include "HashTable.H"
#include "wordList.H"
#include "className.H"

// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //

namespace Foam
{

// Forward declaration of friend functions and operators
class regExp;
class dictionary;
class SHA1Digest;

Istream& operator>>(Istream&, dictionary&);
Ostream& operator<<(Ostream&, const dictionary&);

/*---------------------------------------------------------------------------*\
                        Class dictionaryName Declaration
\*---------------------------------------------------------------------------*/

class dictionaryName
{
    // Private data

        fileName name_;


public:

    // Constructors

        //- Construct dictionaryName null
        dictionaryName()
        {}

        //- Construct dictionaryName as copy of the given fileName
        dictionaryName(const fileName& name)
        :
            name_(name)
        {}


    // Member functions

        //- Return the dictionary name
        const fileName& name() const
        {
            return name_;
        }

        //- Return the dictionary name
        fileName& name()
        {
            return name_;
        }

        //- Return the local dictionary name (final part of scoped name)
        const word dictName() const
        {
            const word scopedName = name_.name();

            string::size_type i = scopedName.rfind('.');

            if (i == scopedName.npos)
            {
                return scopedName;
            }
            else
            {
                return scopedName.substr(i + 1, scopedName.npos);
            }
        }
};


/*---------------------------------------------------------------------------*\
                           Class dictionary Declaration
\*---------------------------------------------------------------------------*/

class dictionary
:
    public dictionaryName,
    public IDLList<entry>
{
    // Private data

        //- If true write optional keywords and values
        //  if not present in dictionary
        static bool writeOptionalEntries;

        //- HashTable of the entries held on the DL-list for quick lookup
        HashTable<entry*> hashedEntries_;

        //- Parent dictionary
        const dictionary& parent_;

        //- Entries of matching patterns
        DLList<entry*> patternEntries_;

        //- Patterns as precompiled regular expressions
        DLList<autoPtr<regExp>> patternRegexps_;


   // Private Member Functions

        //- Find and return an entry data stream pointer if present
        //  otherwise return nullptr. Allows scoping using '.'
        const entry* lookupScopedSubEntryPtr
        (
            const word&,
            bool recursive,
            bool patternMatch
        ) const;

        //- Search patterns table for exact match or regular expression match
        bool findInPatterns
        (
            const bool patternMatch,
            const word& Keyword,
            DLList<entry*>::const_iterator& wcLink,
            DLList<autoPtr<regExp>>::const_iterator& reLink
        ) const;

        //- Search patterns table for exact match or regular expression match
        bool findInPatterns
        (
            const bool patternMatch,
            const word& Keyword,
            DLList<entry*>::iterator& wcLink,
            DLList<autoPtr<regExp>>::iterator& reLink
        );


public:

    //- Declare friendship with the entry class for IO
    friend class entry;


    // Declare name of the class and its debug switch
    ClassName("dictionary");


    //- Null dictionary
    static const dictionary null;


    // Constructors

        //- Construct top-level dictionary null
        dictionary();

        //- Construct top-level empty dictionary with given name
        dictionary(const fileName& name);

        //- Construct given the entry name, parent dictionary and Istream,
        //  reading entries until lastEntry or EOF
        dictionary
        (
            const fileName& name,
            const dictionary& parentDict,
            Istream&
        );

        //- Construct top-level dictionary from Istream,
        //  reading entries until EOF
        dictionary(Istream&);

        //- Construct top-level dictionary from Istream,
        //  reading entries until EOF, optionally keeping the header
        dictionary(Istream&, const bool keepHeader);

        //- Construct as copy given the parent dictionary
        dictionary(const dictionary& parentDict, const dictionary&);

        //- Construct top-level dictionary as copy
        dictionary(const dictionary&);

        //- Construct top-level dictionary as copy from pointer to dictionary.
        //  A null pointer is treated like an empty dictionary.
        dictionary(const dictionary*);

        //- Construct by transferring parameter contents given parent dictionary
        dictionary(const dictionary& parentDict, const Xfer<dictionary>&);

        //- Construct top-level dictionary by transferring parameter contents
        dictionary(const Xfer<dictionary>&);

        //- Construct and return clone
        autoPtr<dictionary> clone() const;

        //- Construct top-level dictionary on freestore from Istream
        static autoPtr<dictionary> New(Istream&);


    //- Destructor
    virtual ~dictionary();


    // Member functions

        //- Return the parent dictionary
        const dictionary& parent() const
        {
            return parent_;
        }

        //- Return whether this dictionary is null
        bool isNull() const
        {
            return this == &null;
        }

        //- Return the top of the tree
        const dictionary& topDict() const;

        //- Return line number of first token in dictionary
        label startLineNumber() const;

        //- Return line number of last token in dictionary
        label endLineNumber() const;

        //- Return the SHA1 digest of the dictionary contents
        SHA1Digest digest() const;

        //- Return the dictionary as a list of tokens
        tokenList tokens() const;


        // Search and lookup

            //- Search dictionary for given keyword
            //  If recursive, search parent dictionaries
            //  If patternMatch, use regular expressions
            bool found
            (
                const word&,
                bool recursive=false,
                bool patternMatch = true
            ) const;

            //- Find and return an entry data stream pointer if present
            //  otherwise return nullptr.
            //  If recursive, search parent dictionaries.
            //  If patternMatch, use regular expressions
            const entry* lookupEntryPtr
            (
                const word&,
                bool recursive,
                bool patternMatch
            ) const;

            //- Find and return an entry data stream pointer for manipulation
            //  if present otherwise return nullptr.
            //  If recursive, search parent dictionaries.
            //  If patternMatch, use regular expressions.
            entry* lookupEntryPtr
            (
                const word&,
                bool recursive,
                bool patternMatch
            );

            //- Find and return an entry data stream if present otherwise error.
            //  If recursive, search parent dictionaries.
            //  If patternMatch, use regular expressions.
            const entry& lookupEntry
            (
                const word&,
                bool recursive,
                bool patternMatch
            ) const;

            //- Find and return an entry data stream
            //  If recursive, search parent dictionaries.
            //  If patternMatch, use regular expressions.
            ITstream& lookup
            (
                const word&,
                bool recursive=false,
                bool patternMatch=true
            ) const;

            //- Find and return a T,
            //  if not found throw a fatal error.
            //  If recursive, search parent dictionaries.
            //  If patternMatch, use regular expressions.
            template<class T>
            T lookupType
            (
                const word&,
                bool recursive=false,
                bool patternMatch=true
            ) const;

            //- Find and return a T,
            //  if not found return the given default value.
            //  If recursive, search parent dictionaries.
            //  If patternMatch, use regular expressions.
            template<class T>
            T lookupOrDefault
            (
                const word&,
                const T&,
                bool recursive=false,
                bool patternMatch=true
            ) const;

            //- Find and return a T, if not found return the given
            //  default value, and add to dictionary.
            //  If recursive, search parent dictionaries.
            //  If patternMatch, use regular expressions.
            template<class T>
            T lookupOrAddDefault
            (
                const word&,
                const T&,
                bool recursive=false,
                bool patternMatch=true
            );

            //- Find an entry if present, and assign to T
            //  Returns true if the entry was found.
            //  If recursive, search parent dictionaries.
            //  If patternMatch, use regular expressions.
            template<class T>
            bool readIfPresent
            (
                const word&,
                T&,
                bool recursive=false,
                bool patternMatch=true
            ) const;

            //- Find and return an entry data stream pointer if present
            //  otherwise return nullptr. Allows scoping using '.'.
            //  Special handling for ':' at start of keyword and '..'.
            const entry* lookupScopedEntryPtr
            (
                const word&,
                bool recursive,
                bool patternMatch
            ) const;

            //- Check if entry is a sub-dictionary
            bool isDict(const word&) const;

            //- Find and return a sub-dictionary pointer if present
            //  otherwise return nullptr.
            const dictionary* subDictPtr(const word&) const;

            //- Find and return a sub-dictionary pointer if present
            //  otherwise return nullptr.
            dictionary* subDictPtr(const word&);

            //- Find and return a sub-dictionary
            const dictionary& subDict(const word&) const;

            //- Find and return a sub-dictionary for manipulation
            dictionary& subDict(const word&);

            //- Find and return a sub-dictionary as a copy, or
            //  return an empty dictionary if the sub-dictionary does not exist
            dictionary subOrEmptyDict
            (
                const word&,
                const bool mustRead = false
            ) const;

            //- Find and return a sub-dictionary if found
            //  otherwise return this dictionary
            const dictionary& optionalSubDict(const word&) const;

            //- Return the table of contents
            wordList toc() const;

            //- Return the sorted table of contents
            wordList sortedToc() const;

            //- Return the list of available keys or patterns
            List<keyType> keys(bool patterns=false) const;


        // Editing

            //- Substitute the given keyword prepended by '$' with the
            //  corresponding sub-dictionary entries
            bool substituteKeyword(const word& keyword);

            //- Substitute the given scoped keyword prepended by '$' with the
            //  corresponding sub-dictionary entries
            bool substituteScopedKeyword(const word& keyword);

            //- Add a new entry
            //  With the merge option, dictionaries are interwoven and
            //  primitive entries are overwritten
            bool add(entry*, bool mergeEntry=false);

            //- Add an entry
            //  With the merge option, dictionaries are interwoven and
            //  primitive entries are overwritten
            void add(const entry&, bool mergeEntry=false);

            //- Add a word entry
            //  optionally overwrite an existing entry
            void add(const keyType&, const word&, bool overwrite=false);

            //- Add a string entry
            //  optionally overwrite an existing entry
            void add(const keyType&, const string&, bool overwrite=false);

            //- Add a label entry
            //  optionally overwrite an existing entry
            void add(const keyType&, const label, bool overwrite=false);

            //- Add a scalar entry
            //  optionally overwrite an existing entry
            void add(const keyType&, const scalar, bool overwrite=false);

            //- Add a dictionary entry
            //  optionally merge with an existing sub-dictionary
            void add
            (
                const keyType&,
                const dictionary&,
                bool mergeEntry=false
            );

            //- Add a T entry
            //  optionally overwrite an existing entry
            template<class T>
            void add(const keyType&, const T&, bool overwrite=false);

            //- Assign a new entry, overwrite any existing entry
            void set(entry*);

            //- Assign a new entry, overwrite any existing entry
            void set(const entry&);

            //- Assign a dictionary entry, overwrite any existing entry
            void set(const keyType&, const dictionary&);

            //- Assign a T entry, overwrite any existing entry
            template<class T>
            void set(const keyType&, const T&);

            //- Remove an entry specified by keyword
            bool remove(const word&);

            //- Change the keyword for an entry,
            //  optionally forcing overwrite of an existing entry
            bool changeKeyword
            (
                const keyType& oldKeyword,
                const keyType& newKeyword,
                bool forceOverwrite=false
            );

            //- Merge entries from the given dictionary.
            //  Also merge sub-dictionaries as required.
            bool merge(const dictionary&);

            //- Clear the dictionary
            void clear();

            //- Transfer the contents of the argument and annul the argument.
            void transfer(dictionary&);

            //- Transfer contents to the Xfer container
            Xfer<dictionary> xfer();


        // Read

            //- Read dictionary from Istream
            bool read(Istream&);

            //- Read dictionary from Istream, optionally keeping the header
            bool read(Istream&, const bool keepHeader);


        // Write

            //- Write dictionary, normally with sub-dictionary formatting
            void write(Ostream&, const bool subDict=true) const;


    // Member Operators

        //- Find and return entry
        ITstream& operator[](const word&) const;

        void operator=(const dictionary&);

        //- Include entries from the given dictionary.
        //  Warn, but do not overwrite existing entries.
        void operator+=(const dictionary&);

        //- Conditionally include entries from the given dictionary.
        //  Do not overwrite existing entries.
        void operator|=(const dictionary&);

        //- Unconditionally include entries from the given dictionary.
        //  Overwrite existing entries.
        void operator<<=(const dictionary&);


    // IOstream operators

        //- Read dictionary from Istream
        friend Istream& operator>>(Istream&, dictionary&);

        //- Write dictionary to Ostream
        friend Ostream& operator<<(Ostream&, const dictionary&);
};


// Global Operators

//- Combine dictionaries.
//  Starting from the entries in dict1 and then including those from dict2.
//  Warn, but do not overwrite the entries from dict1.
dictionary operator+(const dictionary& dict1, const dictionary& dict2);

//- Combine dictionaries.
//  Starting from the entries in dict1 and then including those from dict2.
//  Do not overwrite the entries from dict1.
dictionary operator|(const dictionary& dict1, const dictionary& dict2);


// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //

} // End namespace Foam

// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //

#ifdef NoRepository
    #include "dictionaryTemplates.C"
#endif

// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //

#endif

// ************************************************************************* //
